Pheromone-mediated mating disruption (MD) represents an important tool to manage insect pests in agriculture and forestry. MD relies on the release of synthetic sex pheromones from dispensers in crops, interfering with mate finding and reproduction of a pest through both competitive and non-competitive mechanisms. MD programs primarily rely upon “passive” dispensers, used at high densities per hectare (200–3000 units∙ha−1). In addition to the labor required for their application, another disadvantage of “passive” dispensers is the continuous release of pheromones, regardless of the time of day or the pest flight activity. Aerosol delivery systems can overcome the drawbacks of passive dispensers as they are applied at far lower density (2–5 units∙ha−1) and they can be programmed to release pheromones at selected time intervals when the target pest is active. However, the mode of action of aerosol dispensers is still not well understood and there are concerns of whether they are as effective as passive dispensers. This review focuses on the history of aerosol dispensers, mode of action, and effectiveness on various crops; deployment strategies; and the movement of pheromone once released. Limitations of aerosols and challenges for future research and commercial use are discussed

Benelli, G.; Lucchi, A.; Thomson, D.; Ioriatti, C. (2019). Sex pheromone aerosol devices for mating disruption: challenges for a brighter future. INSECTS, 10 (10): 308. doi: 10.3390/insects10100308 handle: http://hdl.handle.net/10449/58153

Sex pheromone aerosol devices for mating disruption: challenges for a brighter future

Ioriatti, Claudio
Ultimo
2019-01-01

Abstract

Pheromone-mediated mating disruption (MD) represents an important tool to manage insect pests in agriculture and forestry. MD relies on the release of synthetic sex pheromones from dispensers in crops, interfering with mate finding and reproduction of a pest through both competitive and non-competitive mechanisms. MD programs primarily rely upon “passive” dispensers, used at high densities per hectare (200–3000 units∙ha−1). In addition to the labor required for their application, another disadvantage of “passive” dispensers is the continuous release of pheromones, regardless of the time of day or the pest flight activity. Aerosol delivery systems can overcome the drawbacks of passive dispensers as they are applied at far lower density (2–5 units∙ha−1) and they can be programmed to release pheromones at selected time intervals when the target pest is active. However, the mode of action of aerosol dispensers is still not well understood and there are concerns of whether they are as effective as passive dispensers. This review focuses on the history of aerosol dispensers, mode of action, and effectiveness on various crops; deployment strategies; and the movement of pheromone once released. Limitations of aerosols and challenges for future research and commercial use are discussed
Beetle pests
Integrated pest management
Mealybugs
Moth pests
Insect sex pheromones
Precision agriculture
Settore AGR/11 - ENTOMOLOGIA GENERALE E APPLICATA
2019
Benelli, G.; Lucchi, A.; Thomson, D.; Ioriatti, C. (2019). Sex pheromone aerosol devices for mating disruption: challenges for a brighter future. INSECTS, 10 (10): 308. doi: 10.3390/insects10100308 handle: http://hdl.handle.net/10449/58153
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10449/58153
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